AD7392 Analog Devices, AD7392 Datasheet - Page 12
AD7392
Manufacturer Part Number
AD7392
Description
3 V, Parallel Input Micropower 12-Bit DACs
Manufacturer
Analog Devices
Datasheet
1.AD7392.pdf
(20 pages)
Specifications of AD7392
Resolution (bits)
12bit
Dac Update Rate
17kSPS
Dac Settling Time
60µs
Max Pos Supply (v)
+5.5V
Single-supply
Yes
Dac Type
Voltage Out
Dac Input Format
Par
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AD7392/AD7393
THEORY OF OPERATION
The AD7392/AD7393 comprise a set of pin-compatible, 12-/10-
bit digital-to-analog converters (DACs). These single-supply
operation devices consume less than 100 μA of current while
operating from 2.7 V to 5.5 V power supplies, making them
ideal for battery-operated applications. They contain a voltage-
switched, 12-/10-bit, laser-trimmed DAC; rail-to-rail output op
amps; and a parallel input DAC register. The external reference
input has constant input resistance independent of the digital
code setting of the DAC. In addition, the reference input can be
tied to the same supply voltage as V
output voltage span of 0 V to V
consists of a CS write strobe and 12 data bits (D0 to D11) if
utilizing the AD7392 or 10 data bits (D0 to D9) if utilizing
the AD7393. An RS pin is available to reset the DAC register to
zero scale. This function is useful for power-on reset or system
failure recovery to a known state. Additional power savings are
accomplished by activating the SHDN pin, resulting in a 1.5 μA
maximum consumption sleep mode. While the supply voltage is
on, data is retained in the DAC register to reset the DAC output
when the part is taken out of shutdown ( SHDN = 1).
DIGITAL-TO-ANALOG CONVERTERS
The voltage switched R-2R DAC generates an output voltage
that depends on the external reference voltage connected to
the V
where:
D is the decimal data-word loaded into the DAC register.
N is the number of bits of DAC resolution.
If the 10-bit AD7393 uses a 2.5 V reference, Equation 1
becomes
Using Equation 2, the nominal midscale voltage at V
1.25 V, for D = 512; full-scale voltage is 2.497 V. The LSB
step size is 2.5 × 1/1024 = 0.0024 V.
If the 12-bit AD7392 uses a 5.0 V reference, Equation 1
becomes
Using Equation 3, the AD7392 provides a nominal midscale volt-
age of 2.50 V (for D = 2048) and a full-scale V
The LSB step size is 5.0 × 1/4096 = 0.0012 V.
V
V
V
REF
OUT
OUT
OUT
pin according to Equation 1.
=
=
=
V
2
V
5 .
REF
REF
×
×
1024
×
2
D
D
4096
N
D
DD
. The parallel data interface
DD
, resulting in a maximum
OUT
of 4.998 V.
OUT
is
Rev. C | Page 12 of 20
(2)
(3)
(1)
AMPLIFIER SECTION
The internal DACs output is buffered by a low power consump-
tion precision amplifier. The op amp has a 60 μs typical settling
time to 0.1% of full scale. There are slight differences in settling
time for negative slew signals vs. positive. Also, negative tran-
sition settling time to within the last 6 LSBs of 0 V has an extended
settling time. The rail-to-rail output stage of this amplifier has
been designed to provide precision performance while operating
near either power supply. Figure 27 shows an equivalent output
schematic of the rail-to-rail amplifier with its N-channel pull-
down FETs that pull an output load directly to GND. The
output sourcing current is provided by a P-channel, pull-up
device that can source current-to-GND terminated loads.
The rail-to-rail output stage provides ±1 mA of output current.
The N-channel output pull-down MOSFET, shown in Figure 27,
has a 35 Ω on resistance that sets the sink current capability
near ground. In addition to resistive load driving capability, the
amplifier also has been carefully designed and characterized for
up to 100 pF capacitive load driving capability.
REFERENCE INPUT
The reference input terminal has a constant input resistance
independent of digital code, which results in reduced glitches
on the external reference voltage source. The high 2.5 MΩ input
resistance minimizes power dissipation within the AD7392/
AD7393 DACs. The V
from ground to the positive supply voltage V
simplest applications for saving an external reference voltage
source is connecting the REF terminal to the positive V
supply. This connection results in a rail-to-rail voltage output
span maximizing the programmed range. The reference input
accepts ac signals as long as they stay within the 0 V < V
V
nonlinearity error performance are plotted in Figure 20 and
Figure 21. The ratiometric reference feature makes the AD7392/
AD7393 an ideal companion to ratiometric analog-to-digital
converters (ADCs) such as the AD7896.
DD
supply voltage range. The reference bandwidth and integral
Figure 27. Equivalent Analog Output Circuit
REF
input accepts input voltages ranging
N-CH
P-CH
V
V
AGND
OUT
DD
DD
. One of the
DD
REF
<
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